Hydrogenated starch hydrolysates

Hydrogenated starch hydrolysates (HSHs), also known as polyglycitol syrup (INS 964), are mixtures of several sugar alcohols (a type of sugar substitute). Hydrogenated starch hydrolysates were developed by the Swedish company Lyckeby Starch in the 1960s. The HSH family of polyols is an approved food ingredient in Canada, Japan, and Australia. HSH sweeteners provide 40 to 90% sweetness relative to table sugar.

Hydrogenated starch hydrolysates are produced by the partial hydrolysis of starch – most often corn starch, but also potato starch or wheat starch. This creates dextrins (glucose and short glucose chains). The hydrolyzed starch (dextrin) then undergoes hydrogenation to convert the dextrins to sugar alcohols.

Hydrogenated starch hydrolysates are similar to sorbitol: if the starch is completely hydrolyzed so that only single glucose molecules remain, then after hydrogenation the result is sorbitol. Because in HSHs the starch is not completely hydrolyzed, a mixture of sorbitol, maltitol, and longer chain hydrogenated saccharides (such as maltotriitol) is produced. When no single polyol is dominant in the mix, the generic name hydrogenated starch hydrolysates is used. However, if 50% or more of the polyols in the mixture are of one type, it can be labeled as "sorbitol syrup", or "maltitol syrup", etc.

Uses

Hydrogenated starch hydrolysates are used commercially in the same way as other common sugar alcohols. They are often used as both a sweetener and as a humectant (moisture-retaining ingredient). As a crystallization modifier, they can prevent syrups from forming crystals of sugar. It is used to add bulk, body, texture, and viscosity to mixtures, and can protect against damage from freezing and drying. HSH products are generally blended with other sweeteners, both caloric and artificial.

Health and safety

Similar to xylitol, hydrogenated starch hydrolysates are not readily fermented by oral bacteria and are used to formulate sugarless products that do not promote dental caries. HSHs are also more slowly absorbed in the digestive tract, thus, have a reduced glycemic potential relative to glucose. However, they do have a laxative effect when consumed in large amounts.

References

Altschul, Aaron M (1993-03-12). Low-Calorie Foods Handbook. CRC Press. ISBN 9780824788124.
"Cargill Food and Beverage Ingredients EMEA: Products - Sweeteners - Polyols - Maltidex™ Maltitol - Health Benefits". Archived from the original on 2016-04-05. Retrieved 2014-05-04.

General references

Alcohols

By consumption

Alcohols found in alcoholic drinks	1-Propanol 2-Methyl-1-butanol Ethanol Isoamyl alcohol Isobutanol Phenethyl alcohol tert-Amyl alcohol tert-Butyl alcohol Tryptophol
Medical alcohol	Ethchlorvynol Methylpentynol Methanol poisoning Ethanol
Toxic alcohols	Isopropyl alcohol Methanol

Primary
alcohols (1°)

Methanol	4-Methylcyclohexanemethanol Aminomethanol Cyclohexylmethanol Methoxymethanol Methylazoxymethanol Trifluoromethanol
Ethanol	1-Aminoethanol 2,2,2-Trichloroethanol 2,2,2-Trifluoroethanol 2-(2-Ethoxyethoxy)ethanol 2-(2-Methoxyethoxy)ethanol 2-(2-Methoxyethoxy)ethanol 2-Butoxyethanol 2-Chloroethanol 2-Ethoxyethanol 2-Fluoroethanol 2-Mercaptoethanol 2-Methoxyethanol Aminoethylethanolamine Diethylethanolamine Dimethylethanolamine Ethanol Ethanolamine N,N-Diisopropylaminoethanol N-Methylethanolamine Phenoxyethanol Tribromoethanol
Butanol	2-Methyl-1-butanol Isobutanol n-Butanol
Straight-chain saturated C₁ — C₉	Methanol Ethanol 1-Propanol 1-Butanol 1-Pentanol 1-Hexanol 1-Heptanol 1-Octanol (capryl) 1-Nonanol (pelargonic)
Straight-chain saturated C₁₀ — C₁₉	1-Decanol (capric) 1-Undecanol (hendecyl) 1-Dodecanol (lauryl) 1-Tridecanol 1-Tetradecanol (myristyl) 1-Pentadecanol 1-Hexadecanol (cetyl / palmityl) 1-Heptadecanol 1-Octadecanol (stearyl) 1-Nonadecanol
Straight-chain saturated C₂₀ — C₂₉	1-Icosanol (arachidyl) 1-Heneicosanol 1-Docosanol (behenyl) 1-Tricosanol 1-Tetracosanol (lignoceryl) 1-Pentacosanol 1-Hexacosanol (ceryl) 1-Heptacosanol 1-Octacosanol (cluytyl / montanyl) 1-Nonacosanol
Straight-chain saturated C₃₀ — C₃₉	1-Triacontanol (melissyl / myricyl) 1-Hentriacontanol 1-Dotriacontanol (lacceryl) 1-Tritriacontanol 1-Tetratriacontanol (geddyl) 1-Pentatriacontanol 1-Hexatriacontanol 1-Heptatriacontanol 1-Octatriacontanol 1-Nonatriacontanol
Straight-chain saturated C₄₀ — C₄₉	1-Tetracontanol 1-Hentetracontanol 1-Dotetracontanol 1-Tritetracontanol 1-Tetratetracontanol 1-Pentatetracontanol 1-Hexatetracontanol 1-Heptatetracontanol 1-Octatetracontanol 1-Nonatetracontanol

Secondary
alcohols (2°)

Propylene glycol methyl ether

Tertiary
alcohols (3°)

Hydric alcohols

Monohydric alcohols	Methanol (C₁) Ethanol (C₂) Isopropanol (C₃) 1-Butanol (C₄) 1-Pentanol (C₅) Cetyl alcohol (C₁₆)
Dihydric alcohols	Ethylene glycol Propylene glycol
Trihydric alcohols	Glycerol
Polyhydric alcohols (sugar alcohols)	Pentaerythritol Ethylene glycol (C₂) Glycerol, Propylene glycol (C₃) Erythritol, Threitol (C₄) Xylitol (C₅) Mannitol, Sorbitol (C₆) Volemitol (C₇)

Amyl alcohols

Aromatic alcohols

Saturated
fatty alcohols

Branched and
unsaturated
fatty alcohols

Sugar alcohols

C₁ — C₇	Methylene glycol (C₁) Ethylene glycol (C₂) Glycerol (C₃) Erythritol (C₄) Threitol (C₄) Arabitol (C₅) Ribitol (C₅) Xylitol (C₅) Mannitol (C₆) Sorbitol (C₆) Galactitol (C₆) Iditol (C₆) Volemitol (C₇)
Deoxy sugar alcohols	Fucitol
Cyclic sugar alcohols	Inositol
Glycylglycitols	Maltitol Lactitol Isomalt Maltotriitol Maltotetraitol Polyglycitol

Terpene alcohols

Monoterpene alcohols	Borneol Citronellol Geraniol Linalool Menthol Nerol Rhodinol Terpineol
Sesquiterpene alcohols	Bisabolol Farnesol Nerolidol Patchoulol
Diterpene alcohols	Phytol

Dialcohols

Trialcohols

Glycerol

Sterols

Fluoroalcohols

Preparations

Reactions

Category

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